KR100825427B1 - Air-conditioner - Google Patents

Abstract

An air conditioner is provided to mount a radiation panel to a case of an indoor unit for keeping cooling or heating operation for a predetermined time after the air conditioner stops operating, thereby keeping indoor environment pleasantly and reducing power consumption. An air conditioner includes an indoor unit of which case is mounted with a radiation panel at a front surface, wherein the radiation panel is formed integrally with the case alternatively. The indoor unit has a temperature sensor for sensing room temperature, so that an amount of refrigerant introduced into the radiation panel from an indoor heat exchanger is controlled according to the sensed room temperature(Tin) for controlling the temperature of the radiation panel. The temperature of the radiation panel is kept higher than the room temperature by a predetermined degree(B°C) in winter time, and lower by a predetermined degree(A°C) in summer time.

Description

Air Conditioning Unit

1 is an exploded perspective view showing the appearance that the radiation panel is disposed on the front of the case of the indoor unit of the frame-type air conditioner according to an embodiment of the present invention.

2 is a view for explaining the cooling effect by the radiation heat exchange of the radiation panel shown in FIG.

3 is a graph showing the heat release rate of the human body in the office.

FIG. 4 is a block diagram illustrating a case in which a refrigerant branches from a heat exchanger of an indoor unit and flows into a radiation panel in the frame type air conditioner illustrated in FIG. 1.

FIG. 5 is a block diagram illustrating a case in which the refrigerant flowing into the heat exchanger of the indoor unit is branched and introduced into the radiation panel in the frame type air conditioner illustrated in FIG. 1.

6 is a graph showing the control of the temperature of the radiation panel in summer and winter, respectively.

FIG. 7 is a graph measuring skin temperature of each part of the human body over time in the air conditioner shown in FIG. 1.

<Simple description of the code for the main part of the drawing>

1: tunnel 1a: tunnel wall

2: human body 10: case

12: front panel 15: indoor heat exchanger

20: copy panel

The present invention relates to an air conditioner, and more particularly, by using a radiation panel disposed on the case of the indoor unit, to promote comfort in the summer and winter environment, by using a cooling panel and the heating and cooling mode of the indoor unit and the indoor environment and The present invention relates to an air conditioner that can be controlled by efficient air conditioning according to a time zone.

Most of the conventional facilities use the 'Task-Ambient Air Conditioning System', which uses airflow. The air conditioning in the task area and the surrounding area is different from each other in order to respond to individual comfort level and uniformity. Various Task-Ambient air conditioning methods have been developed.

Here, in the heating and air conditioning space, strong airflow causes a draft. Draft means that the human body receives unwanted local cooling effect by air movement.

However, the conventional air-conditioning method as described above mostly uses airflow, and there is no device or control device for local air control, resulting in poor comfort, and the airflow temperature, discharge direction, size of discharge port, and the like. There is a problem without standards.

The present invention, by using a radiation panel disposed on the case of the indoor unit, to promote comfort in the summer and winter environment, and by using the air-conditioning mode of the radiation panel and the indoor unit can be controlled in an efficient air conditioning according to the indoor environment and time zone, etc. An object is to provide an air conditioner.

The present invention relates to an air conditioner and includes an indoor unit and a radiation panel disposed on a case of the indoor unit.

In addition, the radiation panel may be disposed on the front of the case of the indoor unit, or may be integrally formed with the case.

In addition, the refrigerant may be branched from the heat exchanger of the indoor unit and introduced into the radiation panel, or the refrigerant introduced into the heat exchanger of the indoor unit may branch and enter the radiation panel to control the temperature of the radiation panel.

In addition, the air conditioner further includes a temperature sensor for sensing the temperature of the room, the amount of the refrigerant flowing into the radiation panel by the temperature sensed by the temperature sensor can be controlled.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In general, an air conditioner is a cooling / heating device installed in a space or a wall of an indoor space such as an office or a home to cool or heat a room, and is a device that constitutes a series of refrigeration cycles consisting of a compressor, a condenser, an expansion valve, and an evaporator. .

In particular, an air conditioner is an outdoor unit (sometimes called an 'outdoor' or a 'heat sink') mainly installed outdoors, and an indoor unit (also called an 'indoor' or 'heat absorbing side') mainly installed inside a building. The outdoor unit is provided with a condenser (outdoor heat exchanger) and a compressor, and the indoor unit is provided with an evaporator (indoor heat exchanger).

As is well known, an air conditioner may be broadly divided into a separate type air conditioner in which the outdoor unit and the indoor unit are separately installed, and an integrated air conditioner in which the outdoor unit and the indoor unit are integrally installed.

1 is an exploded perspective view showing the appearance that the radiation panel is disposed on the front of the case of the indoor unit of the frame-type air conditioner according to an embodiment of the present invention.

As shown in FIG. 1, in the air conditioner according to the present invention, a radiation panel 20 is disposed in an indoor unit and a case 10 forming an exterior of the indoor unit.

That is, in the air conditioner according to the present invention, the radiation panel 20 is disposed on the case 10 of the indoor unit, and the radiation panel 20 uses radiation heat exchange between the human body.

As an example of cooling by the radiant heat exchange, as shown in FIG. 2, the inside of the tunnel 1 may feel cool even when the temperature is not low in a hot summer day in which sunlight shines. This is because heat of the human body 2 is released by radiant heat exchange with the tunnel wall surface 1a.

The radiative cooling is a method of cooling through radiant heat transfer between the human body and the surface of a cold radiative cooling system. 3 is a graph showing the heat release rate of the human body in the office. In the case of office workers, about 45% of the heat emitted by the human body to the outside is about 45%, which is about twice the heat dissipation (about 23%) due to convection.

Since the radiant cooling is directly radiant heat exchange with the human body, the comfort is superior to the convection cooling method, and the noise is less than the convective heat exchange, so there is less discomfort due to the draft and noise in the room.

On the other hand, the case 10 of the indoor unit is composed of a flat rectangular, the length in the vertical and horizontal direction is generally formed larger than the front and rear width. And the front panel 12 is installed in front of the case 10.

A hook portion (not shown) is formed to protrude rearward from a lower rear side of the front panel 12, and a hook groove (not shown) on which the hook portion is hooked is formed in the case 10. When the indoor unit is operated, a rear end of the front panel 12 is spaced apart from the case 10 so that external air flows into the indoor unit.

In the present embodiment, the case in which the radiation panel 20 is disposed in front of the case 10 of the indoor unit of the frame type air conditioner, the radiation panel is not only a frame type air conditioner shown in FIG. It may be disposed on the indoor unit case of another type of air conditioner, and the radiation panel 20 may be formed integrally with the case 10 as well as the case where the radiation panel 20 is disposed in front of the case 10.

On the other hand, since the indoor temperature is a hot sequence environment in summer, the temperature of the radiation panel 20 needs to be kept colder than the room temperature, and in winter, the temperature of the radiation panel 20 is cold because the indoor temperature is cold. It needs to be kept warmer than room temperature. Therefore, since the temperature of the radiation panel 20 needs to be maintained within a predetermined range, a refrigerant having a predetermined temperature must flow into the radiation panel 20. To this end, a flow of refrigerant is required between the heat exchanger 15 of the indoor unit and the radiation panel 20.

4 is a block diagram illustrating a case where refrigerant is branched from a heat exchanger of an indoor unit to flow into a radiation panel in the frame air conditioner illustrated in FIG. 1, and FIG. 5 is an indoor unit of the frame air conditioner illustrated in FIG. 1. Is a block diagram showing a case where the refrigerant flowing into the heat exchanger is branched and introduced into the radiation panel.

Since the radiant panel 20 is used as the object to be cooled of the heat exchanger 15 of the indoor unit, the radiant panel 20 is brought into contact with the heat exchanger 15 of the indoor unit so that the temperature of the radiant panel 20 is reduced. Can be maintained.

In detail, as shown in FIG. 4, the refrigerant may be branched from the heat exchanger 15 of the indoor unit to flow into the radiation panel 20. Therefore, the temperature of the radiation panel 20 is controlled to a temperature value within a predetermined range by the temperature of the refrigerant introduced into the radiation panel 20.

In another embodiment, as shown in FIG. 5, the refrigerant flowing into the heat exchanger 15 of the indoor unit may branch and flow into the radiation panel 20. As in the case of FIG. 4, the temperature of the radiation panel 20 is controlled to a temperature value within a predetermined range by the temperature of the refrigerant flowing into the radiation panel 20.

6 is a graph showing the control of the temperature of the radiation panel in summer and winter, respectively. As shown in (a) of FIG. 6, in summer, the temperature of the radiation panel 20 is controlled to be maintained at a predetermined temperature (A ° C.) lower than the room temperature T _in , and similarly to FIG. 6 (b). As shown in), in winter, the temperature of the radiation panel 20 is controlled to be maintained at a predetermined temperature (B ° C) higher than the room temperature (T _in ).

Here, based on the summer season, the temperature of the radiation panel 20 is controlled within the range of 5 ° C to 15 ° C, and preferably, the temperature of the radiation panel 20 is 10 ° C. This is because if the temperature of the radiation panel 20 is 5 ° C. or less, condensation is likely to occur in the radiation panel 20, and if it is 15 ° C. or more, the temperature difference with the indoor air is not large and comfort is hardly obtained.

On the other hand, the air conditioner further comprises a temperature sensor (not shown) for sensing the temperature of the room, the amount of refrigerant flowing into the radiation panel 20 by the temperature sensed by the temperature sensor (not shown) This is controlled.

That is, in the case of controlling to maintain the temperature of the radiation panel 20 within a predetermined range through the amount of the refrigerant flowing into the radiation panel 20, the amount of the refrigerant flowing into the radiation panel 20 in summer. In this case, the temperature of the radiation panel 20 is controlled to be low, and when the amount of refrigerant flowing into the radiation panel 20 is small, the temperature of the radiation panel 20 is controlled to be high.

Therefore, in order to control the temperature of the radiation panel 20 to be lower than the room temperature by a predetermined temperature (A), after detecting a temperature value from a temperature sensor (not shown) for detecting the room temperature, the predetermined temperature than the detected temperature value (A ° C.) It is possible to control the amount of refrigerant required to control at a low temperature within a predetermined range.

Referring to the operation of the air conditioner according to the present invention configured as described above are as follows.

First, when the cooling cycle is operated in the indoor unit having the above configuration, the refrigerant having a relatively low temperature flows into the indoor heat exchanger 15 inside the indoor unit, and the indoor fan is driven by the fan motor (not shown). When (not shown) rotates, indoor air flows through a gap between the case 10 and the top of the front panel 12.

That is, the front panel 12 is partially opened by the upper end of the lower portion of the front panel by the drive of the motor (not shown), the indoor air flows into the gap between the front panel 12 and the case 10. will be.

As described above, the air introduced into the indoor unit is cooled while passing through the indoor heat exchanger 15 through which a low temperature refrigerant flows, and then discharged into the indoor space through a discharge port (not shown). The refrigerant exchanged with the indoor air in the indoor heat exchanger 15 is supplied to an outdoor unit (not shown).

FIG. 7 is a graph of skin temperature measured at each part of the human body over time in the air conditioner shown in FIG. 1.

As shown in FIG. 7, after the operation of the air conditioner is stopped, after about 30 minutes have elapsed, the skin temperature of each body part is lowered as a whole. It can be seen that the average skin temperature (T) calculated as the average is also lowered by about 1 ℃.

That is, even if the operation of the air conditioner is stopped, it can be seen that cooling can be continued for a predetermined time due to the radiation heat exchange of the radiation panel 20. Therefore, there is an effect that can reduce the power consumption due to the operation of the air conditioner.

For example, in humid and hot weather, the cooling mode using the indoor unit of the air conditioner is first operated to maximize the removal of moisture from the indoor humid air, and after the air of a certain room is maintained, the radiation panel 20 is By switching to the second cooling mode used, cooling is continued.

When the user sleeps at night, the radiant panel 20 is installed in a place where a bed is located, and when the cooling is performed in the second cooling mode using the same, the air conditioner is operated only in the operation mode of the radiant panel 20. This eliminates the discomfort caused by indoor unit wind during sleep, enabling optimal air conditioning.

Such an air conditioner may be selectively operated by providing a plurality of heat exchangers, that is, a radiant heat exchanger and an indoor unit, using a single outdoor unit. In an embodiment, the common control unit may be used to control the operation mode of the radiant heat exchanger and the indoor unit. On the contrary, the independent controller can be used to operate in the independent operation mode.

The cooling method using the air conditioner and the radiation panel as described above is equally applicable to the heating operation of the air conditioner. Therefore, even when the heating operation of the air conditioner is stopped, heating may be continued for a predetermined time due to the radiation heat exchange of the radiation panel 20.

Air conditioner according to the present invention configured as described above by using a radiation panel disposed on the case of the indoor unit, to promote comfort in the summer and winter environment, using the heating and cooling mode of the radiation panel and the indoor unit and time zone There is an advantage that can be controlled by efficient air conditioning according to.

In addition, even after the operation of the air conditioner is stopped, it is possible to continue cooling or heating for a predetermined time, there is an advantage that can reduce the power consumption of the air conditioner.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (8)

An indoor unit including a heat exchanger; A radiation panel disposed on a case of the indoor unit, The refrigerant is branched from the heat exchanger of the indoor unit flows into the radiation panel, or the refrigerant flowing into the heat exchanger of the indoor unit is branched into the radiation panel, the temperature of the radiation panel is controlled. The method according to claim 1, The radiation panel is disposed on the front of the case. The method according to claim 1, The radiation panel is formed integrally with the case. delete The method according to claim 1, The air conditioner further comprises a temperature sensor for sensing the temperature of the room, the air conditioner is controlled the amount of refrigerant flowing into the radiation panel by the temperature sensed by the temperature sensor. The method according to claim 5, When the temperature of the radiation panel is kept lower than the room temperature, the temperature of the radiation panel is maintained at a predetermined temperature (A ° C.) lower than the temperature sensed by the temperature sensor. A higher air conditioner increases the amount of refrigerant flowing into the radiation panel, and decreases the amount of refrigerant flowing into the radiation panel when the temperature of the radiation panel is lower than the set temperature. The method according to claim 5, When the temperature of the radiation panel is kept higher than the room temperature, the temperature of the radiation panel is maintained at a predetermined temperature (B ° C.) higher than the temperature detected by the temperature sensor so that the temperature of the radiation panel is maintained at the set temperature. A higher air conditioner reduces the amount of refrigerant flowing into the radiation panel, and increases the amount of refrigerant flowing into the radiation panel when the temperature of the radiation panel is lower than the set temperature. The method according to claim 1, When the cooling mode or the heating mode by the operation of the indoor unit is finished, An air conditioner that switches to a cooling mode or a heating mode using only the radiation panel.

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